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What Is A Battery?

Batteries are fascinating devices that we often take for granted in our everyday lives. How often have you thrown out a AA alkaline cell and stopped to consider what actually happened inside that chemical-filled container to provide your remote control with electrical power?


Batteries are made of three basic components:

  • Anode: Electrons flow out of the anode in a battery, which means conventional “current” flows into the anode. The anode is marked as the negative (-) terminal on batteries.
  • Cathode: Electrons flow into the cathode in a battery, which means conventional “current” flows out of the cathode. The cathode is marked as the positive (+) terminal on batteries.
  • Electrolyte: The electrolyte is often a liquid or gel that reacts with the anode and cathode. It acts as an electrical insulator between the two but is capable of transporting ions.

Batteries can also have a separator to prevent the anode and cathode from touching, and most have some kind ofcasing to keep all the components contained.

Batteries use chemical reactions to cause a flow of electrons. Two special reactions occur: oxidation and reduction. The first produces excess electrons, and the second requires extra electrons. The reactions happen inside the battery, and we harness the flow of electrons to perform work in our circuitry.

When an electrically conducting circuit connects the anode to the cathode, an oxidation reaction happens between the anode and the electrolyte. The extra electrons flow through our circuit toward the cathode.

In or around the cathode, the extra electrons are used in a reduction reaction. In some batteries, ions can also be produced and consumed during the oxidation and reduction reactions.

Some batteries need to be thrown out when the chemicals reach equilibrium. These batteries are known as primary cells.

Other types of batteries can be recharged, and these are called secondary cells.


Original article here.

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